# Images Of Geometric Solids

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- Publication date
- 1985

- Topics
- books, little mathematics library, mathematics, mir books, mir publishers, architecture, arts, descriptive geometry, drawing, ellipse, geometric solids, illustration, mathematics, Pohlke-Schwartz theorem, solid images, cross section

- Collection
- mir-titles; additional_collections

- Language
- English

We now come to another title in the Little Mathematics Library, this one is titled *Images of Geometric Solids *by *N. M. Beskin*

Drawing a plane figure is not geometrically difficult because the image drawn is either an exact copy of the original or a similar figure, e.g. the drawing of a circle looks like the original circle. Drawing geometric solids is quite a different matter. Unfortunately, there are no "spatial pencils" which can trace an object in the air. Such a pencil would "draw" a cube by tracing along its edges. Hence, we have to sketch a cube on paper with an ordinary pencil. A plane image will never be an exact copy of a solid and, therefore, a certain routine ought to be followed in drawing a solid that would create an image of the original in the *best way*.

What is the book about.Descriptive geometry embraces so

many methods that even a brief account would make up a rather thick volume. Therefore, we shall discuss just one of these methods, so as to enable the reader to make stereometric drawings and solve the respective problems...This book presents a geometric theory of constructing

stereometric drawings. Having mastered this theory, a reader will be able to make the drawings himself rather than have to stick to the few sample ones.The first chapter presents the theory, the second one is devoted

to its applications (drawing of a cube, a cone, a cylinder, etc.),

and the third one describes a method of plotting the points of an

image if their coordinates are known.

It is these strategies and routine that this book discusses. Though many things are possible with modern computer programs, but the logic may not be known to people who are using them.

The book was translated from the Russian by *Valery Barvashov* and was first published by Mir in 1985. You can get the book here. All credits to the original uploader.

Contents

**Chapter 1. Theory**

1. The subject matter of the Theory of images ............................7

2. Requirements of an image. ....... ..........................................7

3. What is the book about ........................................................8

4. The method of parallel projection ..........................................8

5. A comment on notation ........ ............................................10

6. Properties of parallel projections ..........................................11

7. Free images ................................... ..................................13

8. Constructing the images of plane figures .............................. ..14

9. Some examples of representing polygons ................................15

10. The image of a circle ..........................................................16

11. Another viewpoint of constructing the images of plane figures ... .17

12. Pohlke-Schwartz theorem. ...... .........................................20

13. Representing geometric solids ..... ....... .................................26

14. Reversibility of an image .....................................................28

15. Specified images ........ ....... ......... ......... ...............................30**Chapter 2. Practical Exercises**

16. Cross sections of polyhedrons ............. ................................32

17. Metric problems .............................................................. ..35

18. Solids of revolution ......... ........ ...... ...... ........................37

19. The image of a plane.. ..... ...... ..... .............................42

20. Inscribed and circumscribed solids. ....................................43

21. Some drawing conventions .................... .............................46

22. Drawing obvious images .. ..... ..........................................47**Chapter 3. A computation method**

23. Theory..... ............. ................. ... ..... ....... ................... ...... 50

24. Application of the computation method .................................53

**Appendix 1. Expression of the Coordinates of the Image** **Points Using the Coordinates of the Original Points**

25. A characteristic property of a linear homogeneous function .......62

26. Formulas for the coordinates of the points of an image .............64

**Appendix 2. The Ellipse**

27. Uniform compression .......... .......... .......................... .......... .67

28. The definition of an ellipse ..................................................70

29. Some properties of ellipse ...................................................70

30. The ellipse as the projection of a circle ..................................73

31. The cross sections of a circular cylinder .................................75

3;2. Some constructions connected with the ellipse .........................76

All credits to the original uploader

- Addeddate
- 2018-05-26 11:28:42

- Identifier
- BeskinNMImagesOfGeometricSolidsMir1985B0006EM1NY

- Identifier-ark
- ark:/13960/t3hx85c51

- Ocr
- ABBYY FineReader 11.0 (Extended OCR)

- Ppi
- 300

- Scanner
- Internet Archive HTML5 Uploader 1.6.3

- Year
- 1985